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双精氨酸转运途径在葡萄球菌中的作用。

Role of the twin-arginine translocation pathway in Staphylococcus.

作者信息

Biswas Lalitha, Biswas Raja, Nerz Christiane, Ohlsen Knut, Schlag Martin, Schäfer Tina, Lamkemeyer Tobias, Ziebandt Anne-Kathrin, Hantke Klaus, Rosenstein Ralf, Götz Friedrich

机构信息

Mikrobielle Genetik, Universität Tübingen, Tübingen, Germany.

出版信息

J Bacteriol. 2009 Oct;191(19):5921-9. doi: 10.1128/JB.00642-09. Epub 2009 Jul 24.

DOI:10.1128/JB.00642-09
PMID:19633084
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2747896/
Abstract

In Staphylococcus, the twin-arginine translocation (Tat) pathway is present only in some species and is composed of TatA and TatC. The tatAC operon is associated with the fepABC operon, which encodes homologs to an iron-binding lipoprotein, an iron-dependent peroxidase (FepB), and a high-affinity iron permease. The FepB protein has a typical twin-arginine (RR) signal peptide. The tat and fep operons constitute an entity that is not present in all staphylococcal species. Our analysis was focused on Staphylococcus aureus and S. carnosus strains. Tat deletion mutants (DeltatatAC) were unable to export active FepB, indicating that this enzyme is a Tat substrate. When the RR signal sequence from FepB was fused to prolipase and protein A, their export became Tat dependent. Since no other protein with a Tat signal could be detected, the fepABC-tatAC genes comprise not only a genetic but also a functional unit. We demonstrated that FepABC drives iron import, and in a mouse kidney abscess model, the bacterial loads of DeltatatAC and Deltatat-fep mutants were decreased. For the first time, we show that the Tat pathway in S. aureus is functional and serves to translocate the iron-dependent peroxidase FepB.

摘要

在葡萄球菌中,双精氨酸转运(Tat)途径仅存在于某些物种中,由TatA和TatC组成。tatAC操纵子与fepABC操纵子相关联,fepABC操纵子编码与铁结合脂蛋白、铁依赖性过氧化物酶(FepB)和高亲和力铁通透酶同源的蛋白。FepB蛋白具有典型的双精氨酸(RR)信号肽。tat和fep操纵子构成了一个并非在所有葡萄球菌物种中都存在的实体。我们的分析集中在金黄色葡萄球菌和肉葡萄球菌菌株上。Tat缺失突变体(ΔtatAC)无法输出活性FepB,这表明该酶是Tat的底物。当将FepB的RR信号序列与脂肪酶原和蛋白A融合时,它们的输出变得依赖于Tat。由于未检测到其他带有Tat信号的蛋白质,fepABC - tatAC基因不仅构成一个遗传单元,还构成一个功能单元。我们证明FepABC驱动铁的导入,并且在小鼠肾脓肿模型中,ΔtatAC和Δtat - fep突变体的细菌载量降低。我们首次表明,金黄色葡萄球菌中的Tat途径具有功能,可用于转运铁依赖性过氧化物酶FepB。

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